EAR-WORN DEVICES INCLUDING DIAGNOSTICS AND MONITORING FEATURES FOR DENTAL HEALTH

§102 §103

DETAILED ACTION Notice of Pre-AIA or AIA Status The present application, filed on or after March 16, 2013, is being examined under the first inventor to file provisions of the AIA . Priority Claims 1-15, 25-28, and 30 are deemed to have an effective filing date of March 1, 2023. Drawings The drawings are objected to under 37 CFR 1.84 (o) because a descriptive legend is required for the components of the block diagram in Fig. 10. Reference numerals 1002, 1004, 1006, 1008, 1010, 1012, 1014, 1016, 1018, 1022, 1024 need a descriptive legend, which can be in a table form on Fig. 10. CFR 1.84 (o) Legends. Suitable descriptive legends may be used subject to approval by the Office, or may be required by the examiner where necessary for understanding of the drawing. Claim Rejections - 35 USC § 102 The following is a quotation of the appropriate paragraphs of 35 U.S.C. 102 that form the basis for the rejections under this section made in this Office action: A person shall be entitled to a patent unless – (a)(1) the claimed invention was patented, described in a printed publication, or in public use, on sale, or otherwise available to the public before the effective filing date of the claimed invention. (a)(2) the claimed invention was described in a patent issued under section 151, or in an application for patent published or deemed published under section 122(b), in which the patent or application, as the case may be, names another inventor and was effectively filed before the effective filing date of the claimed invention. Claims 1-2 are rejected under 35 U.S.C. 102(a)(1)/(a)(2) as being anticipated by US Patent Application Publication No. 2022/0313153 to Shahmiri et al. (hereinafter referred to as “Shahmiri”). Referring to claim 1, Shahmiri discloses an ear-wearable device system (e.g., title and Abstract) comprising: an ear-wearable device (e.g., Fig. 7 and paragraph [0075]), the ear-wearable device comprising a control circuit; a microphone, wherein the microphone is in electrical communication with the control circuit (e.g., paragraphs [0019]: a microphone provides high quality signals that ease discrimination among orofacial activities – examples of which are in Fig. 3 and [0067]; [0075]-[0076]: control circuit/Central Processing Unit; microphone 708 and Fig. 7); and a sensor package, the sensor package comprising a motion sensor; wherein the sensor package is in electrical communication with the control circuit (e.g., paragraph [0075]: IMU 711 including 3-axis MEMS accelerometer that can provide data from which vibrations due to bruxism or other orofacial activities is derived; and Fig. 7); and wherein the ear-wearable device system is configured to evaluate signals from at least one of the microphone and the motion sensor to detect an occurrence of a dental health condition (e.g., paragraphs [0017]: motion sensors in earbuds are effective in discriminating between bruxism and other orofacial activities; [0026] and [0050]-[0054]: accelerometer signal data is processed in the CPU and extracted data segments are input to a machine learning classifier to detect bruxism). With respect to claim 2, Shahmiri discloses the ear-wearable device system of claim 1, the dental health condition comprising at least one selected from the group consisting of bruxism, a TMJ joint issue, oral pain, and tooth decay (e.g., title and abstract: bruxism). Claims 1-2, 8, and 10-11 are rejected under 35 U.S.C. 102(a)(2) as being anticipated by US Patent Application Publication No. 2023/0284978 to Vu et al. (hereinafter referred to as “Vu”). Referring to claim 1, Vu discloses an ear-wearable device system (e.g., title and Abstract) comprising: an ear-wearable device (e.g., paragraph [0020]: the system includes a sensor situated behind and/or above the ear of a user where the sensor is part of a wearable device), the ear-wearable device comprising a control circuit (e.g., paragraph [0020]: system includes a processor and a computer readable medium in communication with the processor); a microphone, wherein the microphone is in electrical communication with the control circuit (e.g., paragraphs [0020]: in some cases, the wearable device may include speakers and/or microphones; [0036]: system 100 includes a wearable device, one or more sensors 110; [0040]: sensors 110 may include microphones and other sound detectors); and a sensor package, the sensor package comprising a motion sensor; wherein the sensor package is in electrical communication with the control circuit (e.g., paragraph [0040]: sensors may further include motion sensors such as an accelerometer, gyroscope, inertial measurement unit (IMU), global navigation satellite system receiver); and wherein the ear-wearable device system is configured to evaluate signals from at least one of the microphone and the motion sensor to detect an occurrence of a dental health condition (e.g., paragraphs [0047]: ML device 145 may be configured to evaluate dental issues, such as TMJ syndrome). With respect to claim 2, Vu discloses the ear-wearable device system of claim 1, the dental health condition comprising at least one selected from the group consisting of bruxism, a TMJ joint issue, oral pain, and tooth decay (e.g., paragraph [0047]). As to claim 8, Vu discloses the ear-wearable device system of claim 1, further comprising: a second ear-wearable device, the second ear-wearable device comprising a second control circuit; a second microphone; and a second sensor package; and wherein the second ear-wearable device is configured to be wearable on an opposite ear versus the ear-wearable device (e.g., paragraph [0020]: the wearable device includes one or more other devices, such as another sensor situated behind the other ear of the user). With respect to claim 10, Vu discloses the ear-wearable device system of claim 8, wherein the ear-wearable device system is configured to identify an abnormal chewing motion (e.g., [0046]: sensor sends bio-signals obtained from the patient and feeds to the ML model that determines abnormal chewing). As to claim 11, Vu discloses the ear-wearable device system of claim 10, the abnormal chewing motion comprising an offset chewing motion (e.g., paragraph [0064]: for each trial, the onset and offset of each performed activity are annotated – thus, an offset abnormal chewing motion would be identified). Claim Rejections - 35 USC § 103 The following is a quotation of 35 U.S.C. 103 which forms the basis for all obviousness rejections set forth in this Office action: A patent for a claimed invention may not be obtained, notwithstanding that the claimed invention is not identically disclosed as set forth in section 102, if the differences between the claimed invention and the prior art are such that the claimed invention as a whole would have been obvious before the effective filing date of the claimed invention to a person having ordinary skill in the art to which the claimed invention pertains. Patentability shall not be negated by the manner in which the invention was made. Claims 3 and 14-15 are rejected under 35 U.S.C. 103 as being unpatentable over Shahmiri as applied to claim 1 above, and further in view of US Patent Application Publication No. 2022/0061767 to Goldstein et al. (hereinafter referred to as “Goldstein”). With respect to claim 3, Shahmiri discloses the ear-wearable device system of claim 1, but does not expressly disclose that the ear-wearable device is a hearing-assistance device. However, Goldstein, in a related art: wearables for monitoring health or status of a patient, teaches that such a wearable monitor can be an integrated miniaturized earpiece, which includes sensors (motion and microphones) and a processor providing hearing loss correction and prevention (e.g., paragraphs [0117], [0188], [0215], and [0286] of Goldstein). Accordingly, one of ordinary skill in the art would have recognized the benefits of an ear-wearable device being a hearing assistance device as well as a health monitoring device in view of the teachings of Goldstein. Consequently, one of ordinary skill in the art would have modified the ear-wearable system of Shahmiri to include a processor for providing hearing loss correction and prevention (a hearing-assistance device) in view of the teachings of Goldstein that such was a known engineering expedient in the ear-wearable monitoring art, and because the combination would have yielded a predictable result. As to claim 14, Shahmiri discloses the ear-wearable device system of claim 1, but does not expressly disclose that the ear-wearable device system is further configured to detect abnormal breathing. However, Goldstein, in a related art, teaches EEG electrodes within the exterior auditory canal (EAC) can be used to monitor or measure a level of sleep quality, or, monitor stoppage of breathing (e.g., paragraphs [0240]-[0241] of Goldstein). Accordingly, one of ordinary skill in the art would have recognized the benefits of an ear-wearable device system further configured to detect abnormal breathing in view of the teachings of Goldstein. Consequently, one of ordinary skill in the art would have modified the ear-wearable system of Shahmiri to be configured to also detect abnormal breathing in view of the teachings of Goldstein that such was a known engineering expedient in the ear-wearable monitoring art, and because the combination would have yielded a predictable result. With respect to claim 15, Shahmiri in view of Goldstein discloses the ear-wearable device system of claim 14, the abnormal breathing comprising at least one selected from the group consisting of snoring and sleep apnea (e.g. paragraph [0242] of Goldstein: a single earpiece can serve to detect various disorders or conditions including sleep apnea and snoring). Accordingly, one of ordinary skill in the art would have recognized the benefits of an ear-wearable device system further configured to detect sleep apnea or snoring in view of the teachings of Goldstein. Consequently, one of ordinary skill in the art would have modified the ear-wearable system of Shahmiri to be configured to also detect sleep apnea or snoring in view of the teachings of Goldstein that such was a known engineering expedient in the ear-wearable monitoring art, and because the combination would have yielded a predictable result. Claim 4 is rejected under 35 U.S.C. 103 as being unpatentable over Shahmiri as applied to claim 1 above, and further in view of US Patent Application Publication No. 2021/0053313 to Predovich. Shahmiri discloses the ear-wearable device system of claim 1, but does not expressly disclose that the ear-wearable device system is configured to issue an alert or notification regarding detected occurrences of the dental health condition. However, Predovich, in a related art: sensor apparatus for measurement of muscle activity in the detection and treatment of bruxism, teaches that once bruxism is detected, a patient is notified and uses bio-feedback to curtain the grinding of the teeth (abstract), that the notification can be a buzzing sound or haptic vibrations that are output by a microprocessor of the wearable device (e.g., paragraph [0099] of Predovich). Accordingly, one of ordinary skill in the art would have recognized the benefits of an ear-wearable device system being configured to issue a notification regarding detected occurrences of the dental health condition (bruxism) in view of the teachings of Predovich. Consequently, one of ordinary skill in the art would have modified the ear-wearable device system of Shahmiri to be configured to issue such a notification in view of the teachings of Predovich that such was a known engineering expedient in the ear-wearable monitoring art, and because the combination would have yielded a predictable result. Claim 5-6 are rejected under 35 U.S.C. 103 as being unpatentable over Shahmiri as applied to claim 1 above, and further in view of US Patent No. 6,093,158 to Morris. With respect to claim 5, Shahmiri discloses the ear-wearable device system of claim 1, but does not expressly disclose that the ear-wearable device is configured to time stamp detected occurrences of dental health related conditions and identify time-related patterns of the same. However, Morris, in a related art: systems for modifying behavioral disorders including bruxism, jaw clenching and snoring (e.g., title and abstract of Morris), teaches a recording system 130 that receives data from processor 110 and stores the data including duration, rate, intensity, and time of day for each episode of undesired behavior so that the patient can correlate the times and dates during which the behavior occurred with other life events (e.g., column 6, lines 1-20 of Morris). Accordingly, one of ordinary skill in the art would have recognized the benefits of an ear-wearable device being configured to detect abnormal breathing in view of the teachings of Morris. Consequently, one of ordinary skill in the art would have modified the ear-wearable system of Shahmiri to time stamp detected occurrences of dental health related conditions and identify time-related patterns of the same in view of the teachings of Morris that such was a known engineering expedient in the ear-wearable monitoring art, and because the combination would have yielded a predictable result. As to claim 6, Shahmiri in view of Morris teaches the ear-wearable device system of claim 5, wherein the ear-wearable device is configured to identify sleep bruxism (e.g., Shahmiri - paragraphs [0033]-[0034]: besides occurring when one is a sleep and one is wake, sleep bruxism and awake bruxism have different kinematic properties: grinding (sleep) and clenching (awake) and [0023], [0043] and Fig. 3 – acoustic profiles of orofacial activities show how the system is capable of being programmed to discriminate between clenching and grinding). Accordingly, one of ordinary skill in the art would have recognized the benefits of identifying sleep bruxism in view of the dental consequences taught by Shahmiri. Consequently, one of ordinary skill in the art would have modified the ear-wearable device of Shahmiri in view of Morris so that it is configured to identify bruxism in view of the teachings of Shahmiri that symptoms of sleep bruxism were known and its ear-wearable devices are unobtrusive and allow for longer monitoring time periods of orofacial activities (e.g., paragraph [0040]), and because the modification would have yielded a predictable result. Claim 7 is rejected under 35 U.S.C. 103 as being unpatentable over Shahmiri. Shahmiri discloses the ear-wearable device system of claim 1, but does not expressly state that the ear-wearable device system is configured to distinguish between awake bruxism and sleep bruxism. However, Shahmiri discloses that differences between the two types of bruxism were known (e.g., paragraphs [0033]-[0034]: besides occurring when one is a sleep and one is wake, sleep bruxism and awake bruxism have different kinematic properties: grinding (sleep) and clenching (awake) and [0023], [0043] and Fig. 3 – acoustic profiles of orofacial activities show how the system is capable of being programmed to discriminate between clenching and grinding). Accordingly, one of ordinary skill in the art would have recognized the benefits of distinguishing between awake bruxism and sleep bruxism in view of the dental consequences taught by Shahmiri. Consequently, one of ordinary skill in the art would have modified the ear-wearable device of Shahmiri so that it is configured to distinguish between awake bruxism and sleep bruxism in view of the teachings of Shahmiri that differences were known and its ear-wearable device are unobtrusive and allow for longer periods of time monitoring of orofacial activities (e.g., paragraph [0040]), and because the modification would have yielded a predictable result. Claims 9 and 12-13 are rejected under 35 U.S.C. 103 as being unpatentable over Vu as applied to claim 8 above, and further in view of US Patent No. 9,149,226 to Jadidi. Vu discloses the ear-wearable device system of claim 8, but does not expressly disclose that the ear-wearable device system is capable of identifying differences in dental health related conditions between a left side of the mouth and a right side of the mouth. However, Jadidi, in a related art: method/apparatus for monitoring muscle activity in a patient’s mouth, teaches that a sensor/electrode may be placed on both the left and right sides of a patient’s jaw to identify the muscle activity/bruxism on both sides as bruxism may differ from one side to another (e.g., column 13, lines 48-58 of Jadidi); and that each of the signals from the right/left side of the jaw can be processed independently so that differences can be identified between the left and right sides of the patient’s jaw. Accordingly, one of ordinary skill in the art would have recognized the benefits of having independent sensors on both sides of a patient’s jaw to identify dental health related conditions between a left side of the mouth and a right side of the mouth in view of the teachings of Jadidi. Consequently, one of ordinary skill in the art would have modified the ear-wearable device system of Vu so that signals from the left sensor and the right sensor are processed independently as taught by Jadidi that such was a well-known engineering protocol in the monitoring of muscle activity in a patient’s mouth, and because the combination would have yielded a predictable result. As to claim 12, Vu discloses the ear-wearable device system of claim 8, wherein the ear-wearable device system is configured to identify sounds from a patient’s body (e.g., paragraph [0041] of Vu: sensors 110 may be configured to detect one or more-bio-signals including facial muscle activities and sounds from the inner body near the patient’s ear), but does not expressly disclose that differences in sounds originating from a left side of the mouth versus a right side of the mouth can be identified. However, Jadidi, in a related art: method/apparatus for monitoring muscle activity in a patient, teaches that a sensor/electrode may be placed on both the left and right sides of a patient’s jaw to identify the muscle activity on both sides as conditions may differ from one side to another (e.g., column 13, lines 48-58 of Jadidi); and that each of the signals from the right/left side of the jaw can be processed independently so that differences can be identified between the left and right sides of the patient’s jaw. Accordingly, one of ordinary skill in the art would have recognized the benefits of having independent sensors on both sides of a patient’s jaw to identify muscle activity and sounds of dental health related conditions between a left side of the mouth and a right side of the mouth in view of the teachings of Jadidi. Consequently, in order to identify differences in sounds, one of ordinary skill in the art would have modified the ear-wearable device system of Vu so that signals from the left sensor and the right sensor are processed independently as taught by Jadidi that such was a well-known engineering protocol in the monitoring of muscle activity in a patient’s mouth, and because the combination would have yielded a predictable result. With respect to claim 13, Vu in view of Jadidi teaches the ear-wearable device system of claim 12, wherein the ear-wearable device system is configured to distinguish between left sided TMJ joint problems and right sided TMJ joint problems (e.g., paragraph [0047] of Vu: ear-wearable device system can identify dental issues, such as TMJ syndrome). Claims 25-28, and 30 are rejected under 35 U.S.C. 103 as being unpatentable over Vu in view of Predovich and US Patent Application Publication No. 2021/0228276 to Giraldez et al. (hereinafter referred to as “Giraldez”). Regarding claim 25, Vu discloses an ear-wearable device system (e.g., title and Abstract) comprising: an ear-wearable device (e.g., paragraph [0020]: the system includes a sensor situated behind and/or above the ear of a user where the sensor is part of a wearable device), the ear-wearable device comprising a control circuit (e.g., paragraph [0020]: system includes a processor and a computer readable medium in communication with the processor); a microphone, wherein the microphone is in electrical communication with the control circuit (e.g., paragraphs [0020]: in some cases, the wearable device may include speakers and/or microphones; [0036]: system 100 includes a wearable device, one or more sensors 110; [0040]: sensors 110 may include microphones and other sound detectors); and a sensor package, the sensor package comprising a motion sensor; wherein the sensor package is in electrical communication with the control circuit (e.g., paragraph [0040]: sensors may further include motion sensors such as an accelerometer, gyroscope, inertial measurement unit (IMU), global navigation satellite system receiver); but does not expressly disclose that the ear-wearable device system is configured to compare signals from at least one of the microphone and the motion sensor from a time period prior to a dental procedure with signals from at least one of the microphone and the motion sensor from a time period after the dental procedure. However, Predovich, in a related art, teaches that a patient could compare nightly events of a dental issue over the course of several days or weeks in order to see how the dental issue is progressing or if any adjustments are necessary (e.g., paragraph [0095] of Predovich). Giraldez, in a related art: medical procedures resulting in changes to patient, teaches a computer system that provides procedure simulations for each step of procedure by comparing a pre-operative model generated before the procedure with one or more 3D post-operative models (e.g., paragraph [0032] of Giraldez); [0116]: procedure simulations include orthodontics and other dental procedures; and that the computing system can generate 3D simulations of orthodontic and other dental procedures so that a user can compare teeth and face before the procedure and after the procedure (e.g., paragraph [0121] of Giraldez). Thus, Giraldez teaches that a user should check a dental issue before a procedure and after a procedure. Accordingly, one of ordinary skill in the art would have recognized the benefits of comparing measured signals of a dental issue over the course of days or weeks to see how the dental issue is progressing in view of the teachings of Predovich, and, check how the patient’s teeth and face are doing before and after a dental procedure as taught by Giraldez. Consequently, one of ordinary skill in the art would have modified the ear-wearable device system of Vu so that its device is capable of comparing signals from at least one of the microphone and the motion sensor from a time period prior to a dental procedure with such signals after the dental procedure in view of the teachings of Predovich and Giraldez that dental issues should be checked before and after a procedure to check for progression of the dental issue and if any adjustments are needed, and because the combination would have yielded a predictable result. With respect to claim 26, Vu in view of Predovich and Giraldez teaches the ear-wearable device system of claim 25, the dental procedure comprising at least one selected from the group consisting of a dental implant, a crown, an orthodontic adjustment, and a tooth filling (e.g., paragraph [0003] of Predovich: common dental restorations/procedures include crowns and fillings to teeth). Accordingly, one of ordinary skill in the art would have recognized that dental procedures include dental restorations, such as crowns and fillings, to teeth in view of the teachings of Predovich. Consequently, one of ordinary skill in the art would have modified the ear-wearable device system of Vu in view of Predovich and Giraldez to monitor the patient’s mouth area with respect to sound and motion before and after either a crown or a tooth filling in view of the teachings of Predovich that such were well-known dental procedures, and because the combination would have yielded a predictable result. As to claim 27, Vu in view of Predovich and Giraldez teaches the ear-wearable device system of claim 26, wherein the ear-wearable device system is capable of receiving an input regarding a type of dental procedure from a system user (e.g., paragraph [0053] of Vu: the computer system of Fig. 1, can include one or more input device 315, which can include a mouse or a keyboard that would be capable of entering the type of dental procedure). With respect to claim 28, Vu in view of Predovich and Giraldez teaches the ear-wearable device system of claim 25, wherein the ear-wearable device system is capable of issuing an alert or notification when a worsening of a dental condition is detected based on the signals from at least one of the microphone and the motion sensor (e.g., paragraphs [0092]-[0093] and [0095] of Predovich: buzzer/vibration/electric impulse can be used to alert wearer that dental condition is detected). Accordingly, one of ordinary skill in the art would have recognized the benefits of issuing an alert or notification when a dental condition is worsening (e.g., patient is grinding or clenching) in view of the teachings of Predovich. Consequently, one of ordinary skill in the art would have modified the ear-wearable device system of Vu so that it is capable of issuing an alert when a worsening of a dental issue is detected as taught by Predovich, and because the combination would have yielded a predictable result. As to claim 30, Vu in view of Predovich and Giraldez teaches the ear-wearable device system of claim 25, further comprising: a second ear-wearable device, the second ear-wearable device comprising a second control circuit; a second microphone; and a second sensor package; and wherein the second ear-wearable device is configured to be wearable on an opposite ear versus the ear-wearable device (e.g., paragraph [0020] of Vu: the wearable device includes one or more other devices, such as another sensor situated behind the other ear of the user). Conclusion The prior art made of record and not relied upon is considered pertinent to applicant's disclosure. US Patent Application Publication No. 2024/0285190 to Bhowmik et al. is directed to ear-wearable system for gait analysis and gait training that teaches an ear-wearable device that comprises, a control circuit, a microphone, and a motion sensor where the system is configured to calculate gait parameters by evaluating signals from the motion sensor and/or the microphone and referencing stored data (e.g., Abstract and paragraph [0011]), where the ear-wearable device of the system is a hearing assistance device (e.g., paragraph [0117]) and that the system can issue a notice or alert if a pattern of a worsening gain is detected (e.g., paragraph [0142]). The Examiner notes that this patent document has the same Applicant, but a different inventive entity. US Patent Application Publication No. 2014/018794 to Deichmann et al. is directed to a method and 3D guiding system for use in a dental implant procedure (e.g., paragraphs [0097] and [0147]-[0148] and in a drilling procedure prior to tooth filling (e.g., paragraph [0142]-[0146]). Any inquiry concerning this communication or earlier communications from the examiner should be directed to CATHERINE M VOORHEES whose telephone number is (571)270-3846. The examiner can normally be reached Monday-Friday 8:30 AM to 4:30 PM. Examiner interviews are available via telephone, in-person, and video conferencing using a USPTO supplied web-based collaboration tool. To schedule an interview, applicant is encouraged to use the USPTO Automated Interview Request (AIR) at http://www.uspto.gov/interviewpractice. If attempts to reach the examiner by telephone are unsuccessful, the examiner’s supervisor, Unsu Jung can be reached at 571 272-8506. The fax phone number for the organization where this application or proceeding is assigned is 571-273-8300. Information regarding the status of published or unpublished applications may be obtained from Patent Center. Unpublished application information in Patent Center is available to registered users. To file and manage patent submissions in Patent Center, visit: https://patentcenter.uspto.gov. Visit https://www.uspto.gov/patents/apply/patent-center for more information about Patent Center and https://www.uspto.gov/patents/docx for information about filing in DOCX format. For additional questions, contact the Electronic Business Center (EBC) at 866-217-9197 (toll-free). If you would like assistance from a USPTO Customer Service Representative, call 800-786-9199 (IN USA OR CANADA) or 571-272-1000. /CATHERINE M VOORHEES/Primary Examiner, Art Unit 3792